Overview

Purpose

Establishing universal laws in far-from-equilibrium physical systems is one of the outstanding unresolved problems in modern physics. While we have not reached a complete theory applicable to any nonequilibrium system, hydrodynamics provides a promising theoretical tool, which captures universal macroscopic behaviors of nonequilibrium many-body systems. In particular, a hydrodynamic approach with thermal fluctuation, dubbed fluctuating hydrodynamics, successfully describes normal hydrodynamic transports in three-dimensional systems as well as anomalous transports (related to the Kardar–Parisi–Zhang universality class) in low-dimensional systems.
The purpose of this workshop is to bring together theorists working on both classical and quantum many-body problems and to explore nonequilibrium physics from the viewpoint of fluctuating hydrodynamics.

Topics

Fluctuating hydrodynamics in concrete microscopic models (Fermi–Pasta–Ulam–Tsingou’s unharmonic chain, interacting particle or spin systems, quantum systems realized in cold-atomic experiments)
Fluctuations in nonequilibrium steady states (e.g., heat conduction, shear flow)
Phenomena induced by nonlinear hydrodynamic fluctuations (long-time tail, Kardar–Parisi–Zhang universality class)
Thermalization phenomena

Date

2024/6/17 (Mon.) - 2024/6/28 (Fri.)

Place

Panasonic Hall, Yukawa Institute for Theoretical Physics, Kyoto University [Google Map] 　

Invited Lecturers

Abhishek Dhar (International Centre for Theoretical Sciences, TIFR): "Fluctuating hydrodynamics of one dimensional lattice models"
Luca Delacrétaz (The University of Chicago): "Effective Field Theories for Thermalizing Systems: Structure and Applications"
Tomohiro Tanogami (Osaka University): "Thermal noise effects on turbulence"
Taiki Haga (Osaka Metropolitan University): "Introduction to functional renormalization group"

Invited Speakers

Yukinao Akamatsu (Yukinao Akamatsu): "Hydrodynamic fluctuations and its kinetic descriptions"
Keisuke Fujii (The University of Tokyo): "Hydrodynamics in strongly correlated quantum gases"
Harukuni Ikeda (Gakushuin University): "Minimum scaling model and exact exponents for the Nambu-Goldstone modes in the Vicsek Model"
Yuki Minami (Gifu University): "Anomalous Heat Conduction in Anharmonic Chains with Space Reversal Symmetry"
Hiroyoshi Nakano (ISSP, The University of Tokyo): "Operational Estimation Method for Bare Viscosity in Fluctuating Hydrodynamics: Role of Ultraviolet Cutoff"
Yusuke Nishida (Tokyo Institute of Technology): "Nonrelativistic conformality, contact correlation, and duality in one dimension"
Makiko Sasada (The University of Tokyo): "Macroscopic scaling limits of the box ball system"

Registration information

The registration deadlines are 2024/6/5 (Wed.) for the onsite participants, and 2024/6/12 (Wed.) for the online participants. Please register from the registration page.

Request for Acknowledgment

We are grateful if you would acknowledge YITP and RIKEN iTHEMS, with the workshop number YITP-T-24-04, in your papers initiated or motivated by discussions during the workshop. Below are some sugggested examples:

The authors thank the Yukawa Institute for Theoretical Physics at Kyoto University and RIKEN iTHEMS, where this work was initiated [completed] during the workshop (YITP-T-24-04) on “Advances in Fluctuating Hydrodynamics: Bridging the Micro and Macro Scales”.
The authors thank the Yukawa Institute for Theoretical Physics at Kyoto University and RIKEN iTHEMS. Discussions during the workshop (YITP-T-24-04) on “Advances in Fluctuating Hydrodynamics: Bridging the Micro and Macro Scales” were useful to complete this work.

Organizers

Masaru Hongo (Niigata University/RIKEN iTHEMS)
Keiji Saito (Kyoto University)
Yuki Minami (Gifu University)
Yoshimasa Hidaka (YITP, Kyoto University)
Hisao Hayakawa (YITP, Kyoto University)

Supporting Organizations

This workshop is primarily sponsored by Yukawa Institute for Theoretical Physics (Kyoto University) with co-sponsorship from RIKEN iTHEMS..